An efficient lightweight authentication scheme for dew‐assisted IoT networks

IF 1.5 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS Security and Privacy Pub Date : 2023-12-11 DOI:10.1002/spy2.360
Upendra Verma, M. Sohani
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Abstract

The dew computing is currently considered as one of the promising technology, due to its ability to give data access in the absence of internet. However, dew computing also brings new challenges, particularly security and privacy issues. In dew computing paradigm, authentication and key agreement pose substantial challenges that must be taken into account. In this context, the present work is to provide a secure authentication scheme for Internet of Things and dew server based on elliptic curve cryptography. Moreover, the performance evaluation of proposed scheme has been assessed in terms of communication and computation cost, which shows the proposed scheme outperforms than existing related schemes. The proposed scheme has also been compared with the related schemes in terms of various security features such as location privacy, anonymity, forward secrecy, mutual authentication, key agreement, forgery attack, replay attack, denial of service attack and replay attack. Furthermore, the formal security evaluation has been verified by automated validation internet security protocols and applications (AVISPA) under on‐the‐fly model‐checker (OFMC) and constraint logic based attack searcher (CL‐AtSE) backends. The OFMC backend analyzed 228 visited nodes with four plies using search time of 0.24 s. The CL‐AtSE analyzed three states with translation time of 0.12 s. The OFMC and CL‐AtSE backends have not identified any attack trace. Therefore, the simulation results demonstrate that the proposed scheme is safe against the security threats.
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用于露水辅助物联网网络的高效轻量级认证方案
目前,露水计算被认为是一种前景广阔的技术,因为它能够在没有互联网的情况下提供数据访问。然而,露计算也带来了新的挑战,尤其是安全和隐私问题。在露计算模式中,身份验证和密钥协议是必须考虑的重大挑战。在此背景下,本研究旨在为物联网和露水服务器提供一种基于椭圆曲线密码学的安全认证方案。此外,还从通信和计算成本的角度对所提方案进行了性能评估,结果表明所提方案的性能优于现有的相关方案。还从位置隐私、匿名性、前向保密性、相互验证、密钥协议、伪造攻击、重放攻击、拒绝服务攻击和重放攻击等各种安全特性方面,对拟议方案与相关方案进行了比较。此外,正式的安全评估已通过自动验证互联网安全协议和应用程序(AVISPA)的即时模型检查器(OFMC)和基于约束逻辑的攻击搜索器(CL-AtSE)后端进行了验证。OFMC 后端分析了 228 个访问节点的四个层,搜索时间为 0.24 秒;CL-AtSE 分析了三个状态,翻译时间为 0.12 秒。因此,仿真结果表明,建议的方案可以安全地应对安全威胁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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